/* RCSid $Id: color.h,v 2.39 2023/11/17 20:02:07 greg Exp $ */ /* * color.h - header for routines using pixel color and spectral values * * Two color representations are used, one for calculation and * another for storage. Calculation is done with three floats * for speed. Stored color values use 4 bytes which contain * three single byte mantissas and a common exponent. * * Spectral colors have between 3 and MAXCSAMP samples, and cover * wavelengths from WLPART[0] to WLPART[3] (max to min nanometers). * Wavelengths WLPART[1] and WLPART[2] mark the separation * of red/green and green/blue intervals, respectively. * The wavelength range may go well beyond visible in either * direction, but some routines will average over each interval * and designate the means as R, G, and B, regardless. * The number of samples is set in CNDX[3], and CNDX[0,1,2] * give peak wavelength indices corresponding to stdprims. * For best accuracy, internal calculations are promoted to * the current number of samples and final conversions * to tristimulus should use scolor_rgb() or scolor_cie(). * * A new Radiance format is provided for spectral pictures, * and spectral colors must be converted by caller using * convertscolor() if the sampling doesn't match. */ #ifndef _RAD_COLOR_H_ #define _RAD_COLOR_H_ #include #include #include #ifdef __cplusplus extern "C" { #endif #ifndef MAXCSAMP #define MAXCSAMP 24 /* maximum # spectral samples */ #endif #define RED 0 #define GRN 1 #define BLU 2 #define CIEX 0 /* or, if input is XYZ... */ #define CIEY 1 #define CIEZ 2 #define EXP 3 /* exponent same for either format */ #define COLXS 128 /* excess used for exponent */ #define WHT 3 /* used for RGBPRIMS type */ #undef uby8 #define uby8 unsigned char /* 8-bit unsigned integer */ typedef uby8 COLR[4]; /* red, green, blue (or X,Y,Z), exponent */ typedef uby8 SCOLR[MAXCSAMP+1]; /* spectral color, common exponent */ typedef float COLORV; typedef COLORV COLOR[3]; /* red, green, blue (or X,Y,Z) */ typedef COLORV SCOLOR[MAXCSAMP]; /* spectral color */ typedef float RGBPRIMS[4][2]; /* (x,y) chromaticities for RGBW */ typedef float (*RGBPRIMP)[2]; /* pointer to RGBPRIMS array */ typedef float COLORMAT[3][3]; /* color coordinate conversion matrix */ #define copycolr(c1,c2) (c1[0]=c2[0],c1[1]=c2[1], \ c1[2]=c2[2],c1[3]=c2[3]) #define colval(col,pri) (col)[pri] #define setcolor(col,r,g,b) ((col)[RED]=(r),(col)[GRN]=(g),(col)[BLU]=(b)) #define scalecolor(col,sf) ((col)[0]*=(sf),(col)[1]*=(sf),(col)[2]*=(sf)) #define opcolor(c1,op,c2) ((c1)[0]op(c2)[0],(c1)[1]op(c2)[1],(c1)[2]op(c2)[2]) #define copycolor(c1,c2) opcolor(c1,=,c2) #define addcolor(c1,c2) opcolor(c1,+=,c2) #define multcolor(c1,c2) opcolor(c1,*=,c2) #define NCSAMP CNDX[EXP] /* current number of spectral samples */ #define LSCOLR (NCSAMP+1) #define copyscolr(sc1,sc2) memcpy(sc1,sc2,LSCOLR) #define scolval(sc,pri) (sc)[CNDX[pri]] #define copyscolor(sc1,sc2) memcpy(sc1,sc2,sizeof(COLORV)*NCSAMP) #define scalescolor(sc,sf) {const float _f=sf; int _i=NCSAMP; \ while (_i--) (sc)[_i] *= _f;} /* faster, use principal colors for RGB */ #define pcolor_color(col,scol) setcolor(col,scolval(scol,RED),\ scolval(scol,GRN),scolval(scol,BLU)) #define pcolor_colr(clr,scol) setcolr(clr,scolval(scol,RED),\ scolval(scol,GRN),scolval(scol,BLU)) #define sopscolor(sc1,op,sc2) {int _i=NCSAMP; while (_i--) (sc1)[_i] op (sc2)[_i];} #define saddscolor(sc1,sc2) sopscolor(sc1,+=,sc2) #define smultscolor(sc1,sc2) sopscolor(sc1,*=,sc2) #define scolrblack(c) memset(c,0,LSCOLR) #define scolorblack(c) memset(c,0,sizeof(COLORV)*MAXCSAMP) #define scolor_color(col,scol) scolor2color(col,scol,NCSAMP,WLPART) #define scolor_colr(clr,scol) scolor2colr(clr,scol,NCSAMP,WLPART) #define scolor_scolr(sclr,scol) scolor2scolr(sclr,scol,NCSAMP) #define scolr_scolor(scol,sclr) scolr2scolor(scol,sclr,NCSAMP) #define scolr_color(col,sclr) scolr2color(col,sclr,NCSAMP,WLPART) #define sopcolor(sc1,op,c2) {SCOLOR _sct;\ setscolor(_sct,c2[RED],c2[GRN],c2[BLU]);\ sopscolor(sc1,op,_sct);} #define saddcolor(sc1,c2) sopcolor(sc1,+=,c2) #define smultcolor(sc1,c2) sopcolor(sc1,*=,c2) #define opscolor(c1,op,sc2) {COLOR _ct; scolor_color(_ct,sc2);\ opcolor(c1,op,_ct);} #define addscolor(c1,sc2) opscolor(c1,+=,sc2) #define multscolor(c1,sc2) opscolor(c1,*=,sc2) #if defined(NTSC_RGB) #define CIE_x_r 0.670 /* standard NTSC primaries */ #define CIE_y_r 0.330 #define CIE_x_g 0.210 #define CIE_y_g 0.710 #define CIE_x_b 0.140 #define CIE_y_b 0.080 #define CIE_x_w (1./3.) /* use EE white */ #define CIE_y_w (1./3.) #elif defined(SHARP_RGB) #define CIE_x_r 0.6898 /* "sharp" RGB primaries */ #define CIE_y_r 0.3206 #define CIE_x_g 0.0736 #define CIE_y_g 0.9003 #define CIE_x_b 0.1166 #define CIE_y_b 0.0374 #define CIE_x_w (1./3.) /* use EE white */ #define CIE_y_w (1./3.) #else #define CIE_x_r 0.640 /* nominal CRT primaries */ #define CIE_y_r 0.330 #define CIE_x_g 0.290 #define CIE_y_g 0.600 #define CIE_x_b 0.150 #define CIE_y_b 0.060 #define CIE_x_w (1./3.) /* use EE white */ #define CIE_y_w (1./3.) #endif #define STDPRIMS {{CIE_x_r,CIE_y_r},{CIE_x_g,CIE_y_g}, \ {CIE_x_b,CIE_y_b},{CIE_x_w,CIE_y_w}} #define CIE_D ( CIE_x_r*(CIE_y_g - CIE_y_b) + \ CIE_x_g*(CIE_y_b - CIE_y_r) + \ CIE_x_b*(CIE_y_r - CIE_y_g) ) #define CIE_C_rD ( (1./CIE_y_w) * \ ( CIE_x_w*(CIE_y_g - CIE_y_b) - \ CIE_y_w*(CIE_x_g - CIE_x_b) + \ CIE_x_g*CIE_y_b - CIE_x_b*CIE_y_g ) ) #define CIE_C_gD ( (1./CIE_y_w) * \ ( CIE_x_w*(CIE_y_b - CIE_y_r) - \ CIE_y_w*(CIE_x_b - CIE_x_r) - \ CIE_x_r*CIE_y_b + CIE_x_b*CIE_y_r ) ) #define CIE_C_bD ( (1./CIE_y_w) * \ ( CIE_x_w*(CIE_y_r - CIE_y_g) - \ CIE_y_w*(CIE_x_r - CIE_x_g) + \ CIE_x_r*CIE_y_g - CIE_x_g*CIE_y_r ) ) #define CIE_rf (CIE_y_r*CIE_C_rD/CIE_D) #define CIE_gf (CIE_y_g*CIE_C_gD/CIE_D) #define CIE_bf (CIE_y_b*CIE_C_bD/CIE_D) /* Default CIE_rf=.265074126, CIE_gf=.670114631 and CIE_bf=.064811243 */ /***** The following definitions are not for XYZ colors *****/ #define bright(col) (CIE_rf*(col)[RED]+CIE_gf*(col)[GRN]+CIE_bf*(col)[BLU]) #define pbright(col) (CIE_rf*scolval(col,RED) + CIE_gf*scolval(col,GRN) + \ CIE_bf*scolval(col,BLU)) #define normbright(c) ( ( (long)(CIE_rf*256.+.5)*(c)[RED] + \ (long)(CIE_gf*256.+.5)*(c)[GRN] + \ (long)(CIE_bf*256.+.5)*(c)[BLU] ) >> 8 ) #define normpbright(c) ( ( (long)(CIE_rf*256.+.5)*(c)[CNDX[RED]] + \ (long)(CIE_gf*256.+.5)*(c)[CNDX[GRN]] + \ (long)(CIE_bf*256.+.5)*(c)[CNDX[BLU]] ) >> 8 ) /* luminous efficacies over visible spectrum */ #define MAXEFFICACY 683. /* defined maximum at 550 nm */ #define WHTEFFICACY 179. /* equal energy white 380-780nm */ #define D65EFFICACY 203. /* standard illuminant D65 */ #define INCEFFICACY 160. /* illuminant A (incand.) */ #define SUNEFFICACY 208. /* illuminant B (solar dir.) */ #define SKYEFFICACY D65EFFICACY /* skylight (should be 110) */ #define DAYEFFICACY D65EFFICACY /* combined sky and solar */ #define WHTSCOTOPIC 412. /* scotopic EE white 380-780nm */ #define WHTMELANOPIC 179. /* melanopic EE white 380-780nm */ #define luminance(col) (WHTEFFICACY * bright(col)) #define pluminance(scol) (WHTEFFICACY * pbright(scol)) #define scolor_rgb(col,scol) scolor2rgb(col,scol,NCSAMP,WLPART) /***** ...end of stuff specific to RGB colors *****/ #define scolor_cie(col,scol) scolor2cie(col,scol,NCSAMP,WLPART) #define sluminance(scol) (WHTEFFICACY * scolor_photopic(scol)) #define intens(col) ( (col)[0] > (col)[1] \ ? (col)[0] > (col)[2] ? (col)[0] : (col)[2] \ : (col)[1] > (col)[2] ? (col)[1] : (col)[2] ) #define colrval(c,p) ( (c)[EXP] ? \ ldexp((c)[p]+.5,(int)(c)[EXP]-(COLXS+8)) : \ 0. ) #define scolrval(c,p) ( (c)[CNDX[EXP]] ? \ ldexp((c)[CNDX[p]]+.5,(int)(c)[CNDX[EXP]]-(COLXS+8)) : \ 0. ) #define WHTCOLOR {1.0,1.0,1.0} #define BLKCOLOR {0.0,0.0,0.0} #define WHTCOLR {128,128,128,COLXS+1} #define BLKCOLR {0,0,0,0} /* picture format identifier */ #define COLRFMT "32-bit_rle_rgbe" #define CIEFMT "32-bit_rle_xyze" #define PICFMT "32-bit_rle_???e" /* matches either */ #define SPECFMT "Radiance_rle_spectra" /* spectral data w/ exponent */ #define LPICFMT 21 /* max format id len */ /* Number of spectral components */ #define NCOMPSTR "NCOMP=" #define LNCOMPSTR 6 #define isncomp(hl) (!strncmp(hl,NCOMPSTR,LNCOMPSTR)) #define ncompval(hl) atoi((hl)+LNCOMPSTR) #define fputncomp(nc,fp) fprintf(fp,"%s%d\n",NCOMPSTR,nc) /* 4 wavelength partitions for (IR+)R,G,B(+UV) */ #define WLSPLTSTR "WAVELENGTH_SPLITS=" #define LWLSPLTSTR 18 #define iswlsplit(hl) (!strncmp(hl,WLSPLTSTR,LWLSPLTSTR)) #define wlsplitval(w,hl) (sscanf((hl)+LWLSPLTSTR,"%f %f %f %f",\ &(w)[0],&(w)[1],&(w)[2],&(w)[3]) == 4) #define fputwlsplit(w,fp) fprintf(fp,"%s %g %g %g %g\n",WLSPLTSTR,\ (w)[0],(w)[1],(w)[2],(w)[3]) /* macros for exposures */ #define EXPOSSTR "EXPOSURE=" #define LEXPOSSTR 9 #define isexpos(hl) (!strncmp(hl,EXPOSSTR,LEXPOSSTR)) #define exposval(hl) atof((hl)+LEXPOSSTR) #define fputexpos(ex,fp) fprintf(fp,"%s%.4e\n",EXPOSSTR,ex) /* macros for pixel aspect ratios */ #define ASPECTSTR "PIXASPECT=" #define LASPECTSTR 10 #define isaspect(hl) (!strncmp(hl,ASPECTSTR,LASPECTSTR)) #define aspectval(hl) atof((hl)+LASPECTSTR) #define fputaspect(pa,fp) fprintf(fp,"%s%f\n",ASPECTSTR,pa) /* macros for primary specifications */ #define PRIMARYSTR "PRIMARIES=" #define LPRIMARYSTR 10 #define isprims(hl) (!strncmp(hl,PRIMARYSTR,LPRIMARYSTR)) #define primsval(p,hl) (sscanf((hl)+LPRIMARYSTR, \ "%f %f %f %f %f %f %f %f", \ &(p)[RED][CIEX],&(p)[RED][CIEY], \ &(p)[GRN][CIEX],&(p)[GRN][CIEY], \ &(p)[BLU][CIEX],&(p)[BLU][CIEY], \ &(p)[WHT][CIEX],&(p)[WHT][CIEY]) == 8) #define fputprims(p,fp) fprintf(fp, \ "%s %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f\n",\ PRIMARYSTR, \ (p)[RED][CIEX],(p)[RED][CIEY], \ (p)[GRN][CIEX],(p)[GRN][CIEY], \ (p)[BLU][CIEX],(p)[BLU][CIEY], \ (p)[WHT][CIEX],(p)[WHT][CIEY]) /* macros for color correction */ #define COLCORSTR "COLORCORR=" #define LCOLCORSTR 10 #define iscolcor(hl) (!strncmp(hl,COLCORSTR,LCOLCORSTR)) #define colcorval(cc,hl) sscanf((hl)+LCOLCORSTR,"%f %f %f", \ &(cc)[RED],&(cc)[GRN],&(cc)[BLU]) #define fputcolcor(cc,fp) fprintf(fp,"%s %f %f %f\n",COLCORSTR, \ (cc)[RED],(cc)[GRN],(cc)[BLU]) /* * Conversions to and from XYZ space generally don't apply WHTEFFICACY. * If you need Y to be luminance (cd/m^2), this must be applied when * converting from radiance (watts/sr/m^2). */ extern int CNDX[4]; /* RGBE indices for SCOLOR, SCOLR */ extern float WLPART[4]; /* RGB wavelength limits+partitions (nm) */ extern RGBPRIMS stdprims; /* standard primary chromaticities */ extern RGBPRIMS xyzprims; /* to indicate XYZ input or output */ extern COLORMAT rgb2xyzmat; /* RGB to XYZ conversion matrix */ extern COLORMAT xyz2rgbmat; /* XYZ to RGB conversion matrix */ extern COLOR cblack, cwhite; /* black (0,0,0) and white (1,1,1) */ #define CGAMUT_LOWER 01 #define CGAMUT_UPPER 02 #define CGAMUT (CGAMUT_LOWER|CGAMUT_UPPER) #define rgb_cie(xyz,rgb) colortrans(xyz,rgb2xyzmat,rgb) #define cpcolormat(md,ms) memcpy((void *)md,(void *)ms,sizeof(COLORMAT)) /* defined in color.c */ extern void *tempbuffer(size_t len); /* in cn[3]=nsamps, wlpt[0],wlpt[3]=extrema */ extern int setspectrsamp(int cn[4], float wlpt[4]); extern int fwritecolrs(COLR *scanline, int len, FILE *fp); extern int fwritescan(COLOR *scanline, int len, FILE *fp); extern int fwritescolrs(uby8 *sscanline, int len, FILE *fp); extern int fwritesscan(COLORV *sscanline, int len, FILE *fp); extern int freadcolrs(COLR *scanline, int len, FILE *fp); extern int freadscan(COLOR *scanline, int len, FILE *fp); extern int freadscolrs(uby8 *scanline, int nc, int len, FILE *fp); extern int freadsscan(COLORV *sscanline, int nc, int len, FILE *fp); /* spectrum conversion, zero-fill past ends */ extern void convertscolor(SCOLOR dst, int dnc, double dwl0, double dwl1, const COLORV src[], int snc, double swl0, double swl1); /* the following use avg spectral ranges */ /* compare scolor_rgb() and scolor_cie() */ /* also, pcolor_color() and pcolor_colr() */ extern void setscolor(SCOLOR scol, double r, double g, double b); extern void scolor2color(COLOR col, SCOLOR scol, int ncs, float wlpt[4]); extern void scolor2colr(COLR clr, SCOLOR scol, int ncs, float wlpt[4]); extern void scolor2scolr(SCOLR sclr, SCOLOR scol, int ncs); extern void colr_color(COLOR col, COLR clr); extern void scolr2scolor(SCOLOR scol, SCOLR sclr, int ncs); extern void scolr2color(COLOR col, SCOLR sclr, int ncs, float wlpt[4]); extern void colr_scolor(SCOLOR scol, COLR clr); extern void setcolr(COLR clr, double r, double g, double b); extern void setscolr(SCOLR sclr, double r, double g, double b); extern double scolor_mean(SCOLOR scol); extern double sintens(SCOLOR scol); extern int bigdiff(COLOR c1, COLOR c2, double md); extern int sbigsdiff(SCOLOR sc1, SCOLOR sc2, double md); /* defined in spec_rgb.c */ extern void spec_cie(COLOR col, int s, int e); extern void spec_rgb(COLOR col, int s, int e); extern void cie_rgb(COLOR rgb, COLOR xyz); extern int clipgamut(COLOR col, double brt, int gamut, COLOR lower, COLOR upper); extern void colortrans(COLOR c2, COLORMAT mat, COLOR c1); extern void multcolormat(COLORMAT m3, COLORMAT m2, COLORMAT m1); extern int colorprimsOK(RGBPRIMS pr); extern int compxyz2rgbmat(COLORMAT mat, RGBPRIMS pr); extern int comprgb2xyzmat(COLORMAT mat, RGBPRIMS pr); extern int comprgb2rgbmat(COLORMAT mat, RGBPRIMS pr1, RGBPRIMS pr2); extern int compxyzWBmat(COLORMAT mat, float wht1[2], float wht2[2]); extern int compxyz2rgbWBmat(COLORMAT mat, RGBPRIMS pr); extern int comprgb2xyzWBmat(COLORMAT mat, RGBPRIMS pr); extern int comprgb2rgbWBmat(COLORMAT mat, RGBPRIMS pr1, RGBPRIMS pr2); /* most accurate spectral->tristim */ extern void scolor2cie(COLOR col, SCOLOR scol, int ncs, float wlpt[4]); extern void scolor2rgb(COLOR col, SCOLOR scol, int ncs, float wlpt[4]); extern double scolor_photopic(SCOLOR scol); extern double scolor_scotopic(SCOLOR scol); extern double scolor_melanopic(SCOLOR scol); /* defined in colrops.c */ extern int setcolrcor(double (*f)(double, double), double a2); extern int setcolrinv(double (*f)(double, double), double a2); extern int setcolrgam(double g); extern int colrs_gambs(COLR *scan, int len); extern int gambs_colrs(COLR *scan, int len); extern void shiftcolrs(COLR *scan, int len, int adjust); extern void normcolrs(COLR *scan, int len, int adjust); #ifdef __cplusplus } #endif #endif /* _RAD_COLOR_H_ */